86Box/src/codegen_new/codegen_timing_common.h

#include "codegen_ops.h"

/*Instruction has input dependency on register in REG field*/
#define SRCDEP_REG (1ull << 0)
/*Instruction has input dependency on register in R/M field*/
#define SRCDEP_RM  (1ull << 1)
/*Instruction modifies register in REG field*/
#define DSTDEP_REG (1ull << 2)
/*Instruction modifies register in R/M field*/
#define DSTDEP_RM  (1ull << 3)

#define SRCDEP_SHIFT 4
#define DSTDEP_SHIFT 12

/*Instruction has input dependency on given register*/
#define SRCDEP_EAX (1ull << 4)
#define SRCDEP_ECX (1ull << 5)
#define SRCDEP_EDX (1ull << 6)
#define SRCDEP_EBX (1ull << 7)
#define SRCDEP_ESP (1ull << 8)
#define SRCDEP_EBP (1ull << 9)
#define SRCDEP_ESI (1ull << 10)
#define SRCDEP_EDI (1ull << 11)

/*Instruction modifies given register*/
#define DSTDEP_EAX (1ull << 12)
#define DSTDEP_ECX (1ull << 13)
#define DSTDEP_EDX (1ull << 14)
#define DSTDEP_EBX (1ull << 15)
#define DSTDEP_ESP (1ull << 16)
#define DSTDEP_EBP (1ull << 17)
#define DSTDEP_ESI (1ull << 18)
#define DSTDEP_EDI (1ull << 19)

/*Instruction has ModR/M byte*/
#define MODRM (1ull << 20)
/*Instruction implicitly uses ESP*/
#define IMPL_ESP (1ull << 21)

/*Instruction is MMX shift or pack/unpack instruction*/
#define MMX_SHIFTPACK (1ull << 22)
/*Instruction is MMX multiply instruction*/
#define MMX_MULTIPLY  (1ull << 23)

/*Instruction pops the FPU stack*/
#define FPU_POP         (1ull << 24)
/*Instruction pops the FPU stack twice*/
#define FPU_POP2        (1ull << 25)
/*Instruction pushes onto the FPU stack*/
#define FPU_PUSH        (1ull << 26)

/*Instruction writes to ST(0)*/
#define FPU_WRITE_ST0   (1ull << 27)
/*Instruction reads from ST(0)*/
#define FPU_READ_ST0    (1ull << 28)
/*Instruction reads from and writes to ST(0)*/
#define FPU_RW_ST0      (3ull << 27)

/*Instruction reads from ST(1)*/
#define FPU_READ_ST1    (1ull << 29)
/*Instruction writes to ST(1)*/
#define FPU_WRITE_ST1   (1ull << 30)
/*Instruction reads from and writes to ST(1)*/
#define FPU_RW_ST1      (3ull << 29)

/*Instruction reads from ST(reg)*/
#define FPU_READ_STREG  (1ull << 31)
/*Instruction writes to ST(reg)*/
#define FPU_WRITE_STREG (1ull << 32)
/*Instruction reads from and writes to ST(reg)*/
#define FPU_RW_STREG    (3ull << 30)

#define FPU_FXCH (1ull << 33)

#define HAS_IMM8    (1ull << 34)
#define HAS_IMM1632 (1ull << 35)


#define REGMASK_IMPL_ESP (1 << 8)
#define REGMASK_SHIFTPACK (1 << 9)
#define REGMASK_MULTIPLY  (1 << 9)


extern uint64_t opcode_deps[256];
extern uint64_t opcode_deps_mod3[256];
extern uint64_t opcode_deps_0f[256];
extern uint64_t opcode_deps_0f_mod3[256];
extern uint64_t opcode_deps_0f0f[256];
extern uint64_t opcode_deps_0f0f_mod3[256];
extern uint64_t opcode_deps_shift[8];
extern uint64_t opcode_deps_shift_mod3[8];
extern uint64_t opcode_deps_shift_cl[8];
extern uint64_t opcode_deps_shift_cl_mod3[8];
extern uint64_t opcode_deps_f6[8];
extern uint64_t opcode_deps_f6_mod3[8];
extern uint64_t opcode_deps_f7[8];
extern uint64_t opcode_deps_f7_mod3[8];
extern uint64_t opcode_deps_ff[8];
extern uint64_t opcode_deps_ff_mod3[8];
extern uint64_t opcode_deps_d8[8];
extern uint64_t opcode_deps_d8_mod3[8];
extern uint64_t opcode_deps_d9[8];
extern uint64_t opcode_deps_d9_mod3[64];
extern uint64_t opcode_deps_da[8];
extern uint64_t opcode_deps_da_mod3[8];
extern uint64_t opcode_deps_db[8];
extern uint64_t opcode_deps_db_mod3[64];
extern uint64_t opcode_deps_dc[8];
extern uint64_t opcode_deps_dc_mod3[8];
extern uint64_t opcode_deps_dd[8];
extern uint64_t opcode_deps_dd_mod3[8];
extern uint64_t opcode_deps_de[8];
extern uint64_t opcode_deps_de_mod3[8];
extern uint64_t opcode_deps_df[8];
extern uint64_t opcode_deps_df_mod3[8];
extern uint64_t opcode_deps_81[8];
extern uint64_t opcode_deps_81_mod3[8];
extern uint64_t opcode_deps_8x[8];
extern uint64_t opcode_deps_8x_mod3[8];


static inline uint32_t get_addr_regmask(uint64_t data, uint32_t fetchdat, int op_32)
{
        uint32_t addr_regmask = 0;

        if (data & MODRM)
        {
                uint8_t modrm = fetchdat & 0xff;

                if ((modrm & 0xc0) != 0xc0)
                {
                        if (op_32 & 0x200)
                        {
                                if ((modrm & 0x7) == 4)
                                {
                                        uint8_t sib = (fetchdat >> 8) & 0xff;

                                        if ((modrm & 0xc0) != 0xc0 && (sib & 7) != 5)
                                        {
                                                addr_regmask = 1 << (sib & 7);
                                                if ((sib & 0x38) != 0x20)
                                                        addr_regmask |= 1 << ((sib >> 3) & 7);
                                        }
                                }
                                else if ((modrm & 0xc7) != 5)
                                {
                                        addr_regmask = 1 << (modrm & 7);
                                }
                        }
                        else
                        {
                                if ((modrm & 0xc7) != 0x06)
                                {
                                        switch (modrm & 7)
                                        {
                                                case 0: addr_regmask = REG_BX | REG_SI; break;
                                                case 1: addr_regmask = REG_BX | REG_DI; break;
                                                case 2: addr_regmask = REG_BP | REG_SI; break;
                                                case 3: addr_regmask = REG_BP | REG_DI; break;
                                                case 4: addr_regmask = REG_SI; break;
                                                case 5: addr_regmask = REG_DI; break;
                                                case 6: addr_regmask = REG_BP; break;
                                                case 7: addr_regmask = REG_BX; break;
                                        }
                                }
                        }
                }
        }

        if (data & IMPL_ESP)
                addr_regmask |= REGMASK_IMPL_ESP;
        
        return addr_regmask;
}

static inline uint32_t get_srcdep_mask(uint64_t data, uint32_t fetchdat, int bit8, int op_32)
{
        uint32_t mask = 0;
        if (data & SRCDEP_REG)
        {
                int reg = (fetchdat >> 3) & 7;
                if (bit8)
                        reg &= 3;
                mask |= (1 << reg);
        }
        if (data & SRCDEP_RM)
        {
                int reg = fetchdat & 7;
                if (bit8)
                        reg &= 3;
                mask |= (1 << reg);
        }
        mask |= ((data >> SRCDEP_SHIFT) & 0xff);
        if (data & MMX_SHIFTPACK)
                mask |= REGMASK_SHIFTPACK;
        if (data & MMX_MULTIPLY)
                mask |= REGMASK_MULTIPLY;

        mask |= get_addr_regmask(data, fetchdat, op_32);

        return mask;
}

static inline uint32_t get_dstdep_mask(uint64_t data, uint32_t fetchdat, int bit8)
{
        uint32_t mask = 0;
        if (data & DSTDEP_REG)
        {
                int reg = (fetchdat >> 3) & 7;
                if (bit8)
                        reg &= 3;
                mask |= (1 << reg);
        }
        if (data & DSTDEP_RM)
        {
                int reg = fetchdat & 7;
                if (bit8)
                        reg &= 3;
                mask |= (1 << reg);
        }
        mask |= ((data >> DSTDEP_SHIFT) & 0xff);
        if (data & MMX_SHIFTPACK)
                mask |= REGMASK_SHIFTPACK;
        if (data & MMX_MULTIPLY)
                mask |= REGMASK_MULTIPLY;
        if (data & IMPL_ESP)
                mask |= REGMASK_IMPL_ESP | (1 << REG_ESP);

        return mask;
}
Added the IBM 5161 ISA expansion for PC and XT; Cleaned up the parallel port emulation, added IRQ support, and made enabling/disabling per port; Added the Award 430NX and the Intel Classic/PCI (Alfredo, 420TX); Finished the 586MC1; Added 8087 emulation; Moved Cyrix 6x86'es to the Dev branch; Sanitized/cleaned up memregs.c/h and intel.c/h; Split the chipsets from machines and sanitized Port 92 emulation; Added support for the 15bpp mode to the Compaq ATI 28800; Moved the MR 386DX and 486 machines to the Dev branch; Ported the new dynamic recompiler from PCem, but it remains in Dev branch until after v2.00; Ported the new timer code from PCem; Cleaned up the CPU table of unused stuff and better optimized its structure; Ported the Open-XT and Open-AT from VARCem, the Open-AT is in the Dev branch; Ported the XT MFM controller rewrite and adding of more controllers (incl. two RLL ones), from VARCem; Added the AHA-1540A and the BusTek BT-542B; Moved the Sumo SCSI-AT to the Dev branch; Minor IDE, FDC, and floppy drive code clean-ups; Made NCR 5380/53C400-based cards' BIOS address configurable; Got rid of the legacy romset variable; Unified (video) buffer and buffer32 into one and make the unified buffer 32-bit; Added the Amstead PPC512 per PCem patch by John Elliott; Switched memory mapping granularity from 16k to 4k (less than 1k not possible due to internal pages); Rewrote the CL-GD 54xx blitter, fixes Win-OS/2 on the 54x6 among other thing; Added the Image Manager 1024 and Professional Graphics Controller per PCem patch by John Elliott and work done on VARCem; Added Headland HT-216, GC-205 and Video 7 VGA 1024i emulation based on PCem commit; Implemented the fuction keys for the Toshiba T1000/T1200/T3100 enhancement; Amstrad MegaPC does now works correctly with non-internal graphics card; The SLiRP code no longer casts a packed struct type to a non-packed struct type; The Xi8088 and PB410a no longer hang on 86Box when PS/2 mouse is not present; The S3 Virge on BeOS is no longer broken (was broken by build #1591); OS/2 2.0 build 6.167 now sees key presses again; Xi8088 now work on CGA again; 86F images converted from either the old or new variants of the HxC MFM format now work correctly; Hardware interrupts with a vector of 0xFF are now handled correctly; OPTi 495SX boards no longer incorrectly have 64 MB maximum RAM when 32 MB is correct; Fixed VNC keyboard input bugs; Fixed AT RTC periodic interrupt - Chicago 58s / 73f / 73g / 81 MIDI play no longer hangs with the build's own VTD driver; Fixed mouse polling with internal mice - Amstrad and Olivetti mice now work correctly; Triones ATAPI DMA driver now correctly reads a file at the end of a CD image with a sectors number not divisible by 4; Compaq Portable now works with all graphics cards; Fixed various MDSI Genius bugs; Added segment limit checks and improved page fault checks for several CPU instructions - Memphis 15xx WINSETUP and Chicago 58s WINDISK.CPL no longer issue a GPF, and some S3 drivers that used to have glitches, now work correctly; Further improved the 808x emulation, also fixes the noticably choppy sound when using 808x CPU's, also fixes #355; OS/2 installer no logner locks up on splash screen on PS/2 Model 70 and 80, fixes #400. Fixed several Amstead bugs, GEM no longer crashes on the Amstrad 1640, fixes #391. Ported John Elliott's Amstrad fixes and improvement from PCem, and fixed the default language so it's correctly Engliish, fixes #278, fixes #389. Fixed a minor IDE timing bug, fixes #388. Fixed Toshiba T1000 RAM issues, fixes #379. Fixed EGA/(S)VGA overscan border handling, fixes #378; Got rid of the now long useless IDE channel 2 auto-removal, fixes #370; Fixed the BIOS files used by the AMSTRAD PC1512, fixes #366; Ported the Unicode CD image file name fix from VARCem, fixes #365; Fixed high density floppy disks on the Xi8088, fixes #359; Fixed some bugs in the Hercules emulation, fixes #346, fixes #358; Fixed the SCSI hard disk mode sense pages, fixes #356; Removed the AMI Unknown 386SX because of impossibility to identify the chipset, closes #349; Fixed bugs in the serial mouse emulation, fixes #344; Compiled 86Box binaries now include all the required .DLL's, fixes #341; Made some combo boxes in the Settings dialog slightly wider, fixes #276. 2019-09-20 14:02:30 +02:00			`#include "codegen_ops.h"`

			`/Instruction has input dependency on register in REG field/`
			`#define SRCDEP_REG (1ull << 0)`
			`/Instruction has input dependency on register in R/M field/`
			`#define SRCDEP_RM (1ull << 1)`
			`/Instruction modifies register in REG field/`
			`#define DSTDEP_REG (1ull << 2)`
			`/Instruction modifies register in R/M field/`
			`#define DSTDEP_RM (1ull << 3)`

			`#define SRCDEP_SHIFT 4`
			`#define DSTDEP_SHIFT 12`

			`/Instruction has input dependency on given register/`
			`#define SRCDEP_EAX (1ull << 4)`
			`#define SRCDEP_ECX (1ull << 5)`
			`#define SRCDEP_EDX (1ull << 6)`
			`#define SRCDEP_EBX (1ull << 7)`
			`#define SRCDEP_ESP (1ull << 8)`
			`#define SRCDEP_EBP (1ull << 9)`
			`#define SRCDEP_ESI (1ull << 10)`
			`#define SRCDEP_EDI (1ull << 11)`

			`/Instruction modifies given register/`
			`#define DSTDEP_EAX (1ull << 12)`
			`#define DSTDEP_ECX (1ull << 13)`
			`#define DSTDEP_EDX (1ull << 14)`
			`#define DSTDEP_EBX (1ull << 15)`
			`#define DSTDEP_ESP (1ull << 16)`
			`#define DSTDEP_EBP (1ull << 17)`
			`#define DSTDEP_ESI (1ull << 18)`
			`#define DSTDEP_EDI (1ull << 19)`

			`/Instruction has ModR/M byte/`
			`#define MODRM (1ull << 20)`
			`/Instruction implicitly uses ESP/`
			`#define IMPL_ESP (1ull << 21)`

			`/Instruction is MMX shift or pack/unpack instruction/`
			`#define MMX_SHIFTPACK (1ull << 22)`
			`/Instruction is MMX multiply instruction/`
			`#define MMX_MULTIPLY (1ull << 23)`

			`/Instruction pops the FPU stack/`
			`#define FPU_POP (1ull << 24)`
			`/Instruction pops the FPU stack twice/`
			`#define FPU_POP2 (1ull << 25)`
			`/Instruction pushes onto the FPU stack/`
			`#define FPU_PUSH (1ull << 26)`

			`/Instruction writes to ST(0)/`
			`#define FPU_WRITE_ST0 (1ull << 27)`
			`/Instruction reads from ST(0)/`
			`#define FPU_READ_ST0 (1ull << 28)`
			`/Instruction reads from and writes to ST(0)/`
			`#define FPU_RW_ST0 (3ull << 27)`

			`/Instruction reads from ST(1)/`
			`#define FPU_READ_ST1 (1ull << 29)`
			`/Instruction writes to ST(1)/`
			`#define FPU_WRITE_ST1 (1ull << 30)`
			`/Instruction reads from and writes to ST(1)/`
			`#define FPU_RW_ST1 (3ull << 29)`

			`/Instruction reads from ST(reg)/`
			`#define FPU_READ_STREG (1ull << 31)`
			`/Instruction writes to ST(reg)/`
			`#define FPU_WRITE_STREG (1ull << 32)`
			`/Instruction reads from and writes to ST(reg)/`
			`#define FPU_RW_STREG (3ull << 30)`

			`#define FPU_FXCH (1ull << 33)`

			`#define HAS_IMM8 (1ull << 34)`
			`#define HAS_IMM1632 (1ull << 35)`


			`#define REGMASK_IMPL_ESP (1 << 8)`
			`#define REGMASK_SHIFTPACK (1 << 9)`
			`#define REGMASK_MULTIPLY (1 << 9)`


			`extern uint64_t opcode_deps[256];`
			`extern uint64_t opcode_deps_mod3[256];`
			`extern uint64_t opcode_deps_0f[256];`
			`extern uint64_t opcode_deps_0f_mod3[256];`
			`extern uint64_t opcode_deps_0f0f[256];`
			`extern uint64_t opcode_deps_0f0f_mod3[256];`
			`extern uint64_t opcode_deps_shift[8];`
			`extern uint64_t opcode_deps_shift_mod3[8];`
			`extern uint64_t opcode_deps_shift_cl[8];`
			`extern uint64_t opcode_deps_shift_cl_mod3[8];`
			`extern uint64_t opcode_deps_f6[8];`
			`extern uint64_t opcode_deps_f6_mod3[8];`
			`extern uint64_t opcode_deps_f7[8];`
			`extern uint64_t opcode_deps_f7_mod3[8];`
			`extern uint64_t opcode_deps_ff[8];`
			`extern uint64_t opcode_deps_ff_mod3[8];`
			`extern uint64_t opcode_deps_d8[8];`
			`extern uint64_t opcode_deps_d8_mod3[8];`
			`extern uint64_t opcode_deps_d9[8];`
			`extern uint64_t opcode_deps_d9_mod3[64];`
			`extern uint64_t opcode_deps_da[8];`
			`extern uint64_t opcode_deps_da_mod3[8];`
			`extern uint64_t opcode_deps_db[8];`
			`extern uint64_t opcode_deps_db_mod3[64];`
			`extern uint64_t opcode_deps_dc[8];`
			`extern uint64_t opcode_deps_dc_mod3[8];`
			`extern uint64_t opcode_deps_dd[8];`
			`extern uint64_t opcode_deps_dd_mod3[8];`
			`extern uint64_t opcode_deps_de[8];`
			`extern uint64_t opcode_deps_de_mod3[8];`
			`extern uint64_t opcode_deps_df[8];`
			`extern uint64_t opcode_deps_df_mod3[8];`
			`extern uint64_t opcode_deps_81[8];`
			`extern uint64_t opcode_deps_81_mod3[8];`
			`extern uint64_t opcode_deps_8x[8];`
			`extern uint64_t opcode_deps_8x_mod3[8];`



			`static inline uint32_t get_addr_regmask(uint64_t data, uint32_t fetchdat, int op_32)`
			`{`
			`uint32_t addr_regmask = 0;`

			`if (data & MODRM)`
			`{`
			`uint8_t modrm = fetchdat & 0xff;`

			`if ((modrm & 0xc0) != 0xc0)`
			`{`
			`if (op_32 & 0x200)`
			`{`
			`if ((modrm & 0x7) == 4)`
			`{`
			`uint8_t sib = (fetchdat >> 8) & 0xff;`

			`if ((modrm & 0xc0) != 0xc0 && (sib & 7) != 5)`
			`{`
			`addr_regmask = 1 << (sib & 7);`
			`if ((sib & 0x38) != 0x20)`
			`addr_regmask \|= 1 << ((sib >> 3) & 7);`
			`}`
			`}`
			`else if ((modrm & 0xc7) != 5)`
			`{`
			`addr_regmask = 1 << (modrm & 7);`
			`}`
			`}`
			`else`
			`{`
			`if ((modrm & 0xc7) != 0x06)`
			`{`
			`switch (modrm & 7)`
			`{`
			`case 0: addr_regmask = REG_BX \| REG_SI; break;`
			`case 1: addr_regmask = REG_BX \| REG_DI; break;`
			`case 2: addr_regmask = REG_BP \| REG_SI; break;`
			`case 3: addr_regmask = REG_BP \| REG_DI; break;`
			`case 4: addr_regmask = REG_SI; break;`
			`case 5: addr_regmask = REG_DI; break;`
			`case 6: addr_regmask = REG_BP; break;`
			`case 7: addr_regmask = REG_BX; break;`
			`}`
			`}`
			`}`
			`}`
			`}`

			`if (data & IMPL_ESP)`
			`addr_regmask \|= REGMASK_IMPL_ESP;`

			`return addr_regmask;`
			`}`

			`static inline uint32_t get_srcdep_mask(uint64_t data, uint32_t fetchdat, int bit8, int op_32)`
			`{`
			`uint32_t mask = 0;`
			`if (data & SRCDEP_REG)`
			`{`
			`int reg = (fetchdat >> 3) & 7;`
			`if (bit8)`
			`reg &= 3;`
			`mask \|= (1 << reg);`
			`}`
			`if (data & SRCDEP_RM)`
			`{`
			`int reg = fetchdat & 7;`
			`if (bit8)`
			`reg &= 3;`
			`mask \|= (1 << reg);`
			`}`
			`mask \|= ((data >> SRCDEP_SHIFT) & 0xff);`
			`if (data & MMX_SHIFTPACK)`
			`mask \|= REGMASK_SHIFTPACK;`
			`if (data & MMX_MULTIPLY)`
			`mask \|= REGMASK_MULTIPLY;`

			`mask \|= get_addr_regmask(data, fetchdat, op_32);`

			`return mask;`
			`}`

			`static inline uint32_t get_dstdep_mask(uint64_t data, uint32_t fetchdat, int bit8)`
			`{`
			`uint32_t mask = 0;`
			`if (data & DSTDEP_REG)`
			`{`
			`int reg = (fetchdat >> 3) & 7;`
			`if (bit8)`
			`reg &= 3;`
			`mask \|= (1 << reg);`
			`}`
			`if (data & DSTDEP_RM)`
			`{`
			`int reg = fetchdat & 7;`
			`if (bit8)`
			`reg &= 3;`
			`mask \|= (1 << reg);`
			`}`
			`mask \|= ((data >> DSTDEP_SHIFT) & 0xff);`
			`if (data & MMX_SHIFTPACK)`
			`mask \|= REGMASK_SHIFTPACK;`
			`if (data & MMX_MULTIPLY)`
			`mask \|= REGMASK_MULTIPLY;`
			`if (data & IMPL_ESP)`
			`mask \|= REGMASK_IMPL_ESP \| (1 << REG_ESP);`

			`return mask;`
			`}`